The ruggedized, dual-filtered SSA-5 GPS antenna is designed for "through-hole" mounting on heavy equipment, locomotives, rail cars and military vehicles. Its 7/8 inch diameter threaded mounting stem allows the SSA-5 to be designed into new applications and also to replace older VIC-5 "Fleet Management Antennas" in the field. Mounting brackets and pipe adaptors quoted on request.

The new Cinterion PH8 HSPA+ cellular machine-to-machine (M2M)module offers a smart solution for wireless connectivity today and in the future. With the latest HSPA+ technology, PH8 is optimized for high bandwidth and allows for speeds up to 14.4 Mbps for downlink and 5.7 Mbps for uplink. PH8 is available in two versions, the PH8 and PH8-P. Operating on quad-band GSM/GPRS, EDGEand five-band UMTS/HSPA+ (PH8: 800/850, AWS, 1900, 2100 MHz and PH8-P: 800/850, 900, 1900, 2100 MHz), PH8 provides true worldwide coverage and reliability even while roaming across different wireless network technologies. (PH8 data sheet)

The “Super Rugged Antenna” (SRA) has been tested to EN standards and operates in high shock and vibration environments like Railroad locomotives, off-road machinery and military applications. Specifically designed for both new and replacement applications requiring Satellite Based Augmentation System (SBAS) navigation accuracy and timing synchronization in a small, integrated easy to install assembly. The SRA incorporates u-Blox LEA-6 GPS or M8 Series GNSS modules providing navigation data and a programmable PPS for radio synchronization. All “Railroad Rugged.”

The M32M is a high performance GPS timing receiver module designed to be intelligent and compact. Armed with two fast acquisition channels complimenting the

32 tracking channels, each channel independently tracks both code and carrier for the superior performance required in today's GPS user environment. Specifically designed for embedded applications, the M32M, has highly optimized firmware making it one of the most capable timing receivers on the market. Standard features include precise, one-pulse-per second (1PPS) outputs, and T-RAIM integrity monitoring algorithm.